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Due date-related scheduling with two...

Yin, Yunqiang.

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Due date-related scheduling with two agents = models and algorithms /

Record Type:	Electronic resources : Monograph/item
Title/Author:	Due date-related scheduling with two agents/ by Yunqiang Yin, Dujuan Wang, T.C.E. Cheng.
Reminder of title:	models and algorithms /
Author:	Yin, Yunqiang.
other author:	Wang, Dujuan.
Published:	Singapore :Springer Singapore : : 2020.,
Description:	xiii, 187 p. :ill., digital ;24 cm.
[NT 15003449]:	Chapter1. Introduction to scheduling -- Chapter2. Computational complexity -- Chapter3. Scheduling problems with assignable due dates -- Chapter4. Scheduling problems with due date assignment -- Chapter5. Integrated production, inventory, and batch delivery scheduling with due date assignment -- Chapter6. Scheduling problems to maximize the weighted number of JIT jobs.
Contained By:	Springer eBooks
Subject:	Production scheduling. -
Online resource:	https://doi.org/10.1007/978-981-15-2105-8
ISBN:	9789811521058

Due date-related scheduling with two agents = models and algorithms /
Yin, Yunqiang.

Due date-related scheduling with two agentsmodels and algorithms /[electronic resource] :by Yunqiang Yin, Dujuan Wang, T.C.E. Cheng. - Singapore :Springer Singapore :2020. - xiii, 187 p. :ill., digital ;24 cm. - Uncertainty and operations research,2195-996X. - Uncertainty and operations research..

Chapter1. Introduction to scheduling -- Chapter2. Computational complexity -- Chapter3. Scheduling problems with assignable due dates -- Chapter4. Scheduling problems with due date assignment -- Chapter5. Integrated production, inventory, and batch delivery scheduling with due date assignment -- Chapter6. Scheduling problems to maximize the weighted number of JIT jobs.

This book provides an introduction to the models, methods, and results of some due date-related scheduling problems in the field of multiagent scheduling. In multiagent scheduling, two or more agents share a common processing resource and each agent wants to optimize its own objective function with respect to its own set of jobs. Since the agents have conflicting objective functions, they have to negotiate among themselves with regard to sharing the common resource to optimize their own objective functions. A key feature of due date-related scheduling concerns the way in which due dates are considered: they can be given parameters or decision variables. For the former case, the motivation stems from the need to improve inventory and production management. For the latter case, due date assignment becomes a challenging issue since the decision-maker has to balance inventory holding costs against the benefits of fulfifilling orders in time. As for due dates, this book addresses the following three different scenarios: (i) The due dates of the jobs from either one or both of the two agents are decision variables, which are determined using some due date assignment models; (ii) The due dates of jobs in each job set are considered as given parameters, whereas which due date corresponds to a given job needs to determine; and (iii) The due date of each job is exogenously given. When the last case is involved, the objective function of each agent is related to the number of just-in-time jobs that are completed exactly on their due dates. For each considered scenario, depending on the model settings, and on the objective function of each agent, this book addresses the complexity, and the design of efficient exact or approximated algorithms. This book aims at introducing the author's research achievements in due date-related scheduling with two agents. It is written for researchers and Ph.D. students working in scheduling theory and other members of scientific community who are interested in recent scheduling models. Our goal is to enable the reader to know about some new achievements on this topic.

ISBN: 9789811521058

Standard No.: 10.1007/978-981-15-2105-8doiSubjects--Topical Terms:

680857
Production scheduling.

LC Class. No.: TS157.5 / .Y569 2020

Dewey Class. No.: 658.53

Due date-related scheduling with two agents = models and algorithms /
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245 1 0 $a Due date-related scheduling with two agents $h [electronic resource] : $b models and algorithms / $c by Yunqiang Yin, Dujuan Wang, T.C.E. Cheng.
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490 1 $a Uncertainty and operations research, $x 2195-996X
505 0 $a Chapter1. Introduction to scheduling -- Chapter2. Computational complexity -- Chapter3. Scheduling problems with assignable due dates -- Chapter4. Scheduling problems with due date assignment -- Chapter5. Integrated production, inventory, and batch delivery scheduling with due date assignment -- Chapter6. Scheduling problems to maximize the weighted number of JIT jobs.
520 $a This book provides an introduction to the models, methods, and results of some due date-related scheduling problems in the field of multiagent scheduling. In multiagent scheduling, two or more agents share a common processing resource and each agent wants to optimize its own objective function with respect to its own set of jobs. Since the agents have conflicting objective functions, they have to negotiate among themselves with regard to sharing the common resource to optimize their own objective functions. A key feature of due date-related scheduling concerns the way in which due dates are considered: they can be given parameters or decision variables. For the former case, the motivation stems from the need to improve inventory and production management. For the latter case, due date assignment becomes a challenging issue since the decision-maker has to balance inventory holding costs against the benefits of fulfifilling orders in time. As for due dates, this book addresses the following three different scenarios: (i) The due dates of the jobs from either one or both of the two agents are decision variables, which are determined using some due date assignment models; (ii) The due dates of jobs in each job set are considered as given parameters, whereas which due date corresponds to a given job needs to determine; and (iii) The due date of each job is exogenously given. When the last case is involved, the objective function of each agent is related to the number of just-in-time jobs that are completed exactly on their due dates. For each considered scenario, depending on the model settings, and on the objective function of each agent, this book addresses the complexity, and the design of efficient exact or approximated algorithms. This book aims at introducing the author's research achievements in due date-related scheduling with two agents. It is written for researchers and Ph.D. students working in scheduling theory and other members of scientific community who are interested in recent scheduling models. Our goal is to enable the reader to know about some new achievements on this topic.
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650 2 4 $a Methodology of the Social Sciences. $3 895565
700 1 $a Wang, Dujuan. $3 3448873
700 1 $a Cheng, T.C.E. $3 1086048
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